Method and apparatus for severing molten glass



Feb. l5, 1938. F. o. wADswoRTH l, j 2,108,518

METHOD AND APPARATUS FOR SEVERING MOLTEN GLASSk FebflS, 1938. F o, WADSWORTH 2,108,518.

METHOD AND APPARATUS FoRsEvERING MOLTEN GLASS i Original Filed Aug. 28, 1935 2 sheets-Sheet 2 Patented Feb. 15, 1938 UNITED STATES PATENT OFFICE MOLTEN GLAS Frank L. 0. Wadsworth,

or to Ball Brothers Company,

corporation yof Indiana Pittsburgh, Pa., assign- Muncie, Ind., a

Original application August 28, 1933. Serial No. 687,043. Divided and this application June 16, 1934, Serial No. 730,935. Renewed January 7,

21 Claims.

This invention relates to a method and apparatus for severing a continuously flowing stream of molten material into individual and successive mold charges and is a division of my copending application Serial No. 687,043, led August 28,

One object of this invention is to provide mechanism for periodically severing a continuously flowing stream of material, composed of a series of regularly recurrent enlarged sections which are connected together by sections of reduced area or diameter, at such points of reduced diameter in such manner that the severing action will not retard or check the downward movement of the stream particles at the plane of severance, but on the contrary, will assist and may, if desired, be made to temporarily accelerate this .movement in` the line of fiow.

Another object of this invention is to provide mechanism which will very substantially increase the speed `with which the successively cut 011 masses or gobs of glass are carried away from the oncoming stream of continuously owing molten material and are delivered to the molds or receptacles in which they are to be fabricated. The main purpose of this procedure being (a) to prol ject each severed charge to the receiving receptacle at such a high velocity that it is not necessary to stop or arrest the movement of the mold table or carrier to receive the said charge; (b) to so increase the momentum of the plastic mass that it will completely fill the mold cavity into which it is thus projected; (c) to minimize the time during which the severed charge is exposed to surface cooling by air currents and radiation; and, (d) to further increase the speed of feeding and forming or fabricating operation as a whole.

'I'hese and other objects which will hereinafter be' made apparent to those skilled in this particular art, are accomplished by means of the invention described in the following specification and illustrated in the accompanying drawings, wherein:

Figure I is a transverse vertical section of a shear mechanism embodying one exempliflcation of my invention;

Fig. II is a vertical section on line lI-II of Figure I:

Fig. III is a'cornposite horizontal section on the double plane III-III of Fig. I:

Fig. IV is a detail section on plane IV-IV of Fig. I:

Fig. V is a semi-diagrammatic view of the section of the shear blades in severing the continuously flowing stream of molten glass;

nected, like the leaves of an ordinary hinge, by

Fig. VI is a side elevation of a second illustrative embodiment of my present invention;

Fig. VII is a plan view of the, construction shown in Fig. VI;

Fig. VIII is a Horizontal section on the line VIII-VIII of Fig. VI;

Fig. IX is a detail vertical section on the plane IX-IX of Fig. V111; and

Fig. X is a diagram showing the relative movement of certain of the parts.

In the drawings, Ihave illustrated two exemplary types or forms of improved high speed shear mechanism for severing a continuously owing stream of molten glass which is issuing through the orifice F in the bottom of a suitable forehearth I without interrupting or checking the free downward movement of any of the stream particles at the place of severance and for projecting the cut off gobs at an accelerated velocity into the receiving receptacle without arresting movement of the latter. Preferably, `the stream of glass is being expelled through the orifice F in a continuously owing stream of regularly enlarged sections connected together by sections of reduced area. Such feeding action may be accomplished with any desired type of feeding mechanism such as the pressure vacuum air feeders or the reciprocating plunger feeders now in general use.

In the illustrative construction shown in Figs. I to V inclusive, the two shear blades S, S-which are of the usual cats eye" formare detachably secured to the cross legs of a pair of inverted U-shaped arms, -4", which are plvotally con- 35 the pintle pins 82-83, that are secured to, or

formed integral with, the tubular side sleeves 8l-84, of a vertically movable cage, which slides up and down on the guide rods 85-85 of a stationary frame M. The side members 84-84 are provided at their lower ends with rectangular heads B646, which are rigidly cross connected by the bolts 81,-81, that serve to hold the connected parts in proper assembled position, with the pintle elements 82-83 in axial alignment. The tubular sleeves 84-84 are also provided at their upper ends with a second pair of pintle pins 88-88, which are pivotally connected, by the links 89-49. with the inner ends of a pair of actuating levers Sli- 90, that are exibly attached, at their outer extremities, to the frame M, by the shackle bars Si-Bi. The levers 90-90 are plvotally connected, at a common intermediate point in their length, to the sides of a cylinder 92, by the stud shaft bolts 93-93; and the cylinder 92 is mounted to reciprocate axially on a .hollow piston rod 04, which is attached, at its lower end, to the base plate of the frame Il, and is supported, at its upper extremity, on a heavy cross head 05, that is carried by two vertical posts 05-00. A piston 01 is secured to the central solid portion of the piston rod 04, and is provided on each side with a short cylindrical hub member which is adapted to enter a corresponding recess in the adjacent head of the cylinder 02 when the latter is at the limit of its up or down movement; and the rod I is provided with two port openings 00 and I0, which are positioned at the ends of these hub members and afford communication between the two ends of the cylinder l2 and the corresponding ends of a reversing valve chamber |00, whose central portion is connected to the high pressure supply line 0l. The chamber |00 contains a double Janus faced poppet valve assembly lli, which is moved in one direction-(to open the upper end of the cylinder 02 to the atmosphere and put the lower end thereof in communication with the pressure conduit 00)-by the edge cam |02, and which is moved in the opposite direction-(to exhaust air from the lower end of the cylinder 02, and admits prssure fluid to the upper end thereon-by the compression spring |03.

'Ihe side legs of each U-shaped shear blade support (Il or 0|). are provided with rollers |05, which are mounted on pivot pins IIB-|00 that may extend across the space between these legs (parallel with the connecting bolts 01-01), or may each terminate at the faces thereof; and a cooperative pair of cam dogs |01, |01, areplvotally mounted, (at llt-|00) on the base of the frame M, and are normally held in the full line position of Figs. I, II, and III (against the stop block |00) by the tension springs |I0| Il. In this position the inwardly projecting upper ends of the members Ill-|01, are positioned below and in the path of movement of the rollers Ill-| etc.. and serve to move the shear blades to closed position (as shown in dotted lines in the lower portion of Fig. I) when the cage frame 04-00--01 etc., is moved downwardly by the piston-cylinderlever and link-assembly 02-03--00-00 etc. Each of the side legs ofthe arms 0|02 is provided with a downwardly projecting tooth ||2, that is adapted to engage with a double faced dog III which is slidably mounted in the head 86, and is normally held in engaging position, with the tooth elements ||2| I2 by the pivoted lever and spring elements ||5 and ||0 (see Fig. I). A cylinder lil is mounted on the base plate of the main frame M, and is 'connected at its center, to the upper end of the hollow piston rod 90 (as indicated by the broken dotted line connections ||8 of Figs. I and III) and this cylinder contains two oppositely moving pistons (|20), which are attached to the piston rods |2I, |2|,

that engage with adjustable screws |22, |22. in.

the arms of the frames |01I01. When compressed alr is admitted to the upper end oi' the cylinder 92 (to raise and hold the shear cage in its upper position-as shown in the drawings), it is concurrently admitted to the cylinder ||1 to move the piston and piston rods (|20-I2I etc.) outwardly, and rock the frames |01 away from each other, so as to carry the roller engaging dogs out of the path of movement of the rollers |05, |05 etc.

'I'he operation of this shear mechanism is as follows: At the proper interval in the cycleof feed action-preferably after the feeding mechaarcane nism has produced a natural "necking of the outnowing stream-,the cam |02 acts to .depress the valve member |0i, thus permitting the compressed fluid, in the cylinder I1 and in the upper part of the cylinder 02. to exhaust to the atmos phere, and concurrently establishing communication between the lower end of the cylinder 02 and the high pressure line 0I (as shown in Fig. I). The escape of the actuating iluid fromthe cylinder ||1 permits the springs ||0 to snap erative position under the shear cage rollers |05-|05-|05-|05; and this will occur before the cylinder 02 begins to move downwardly because the port openings 98 are, at first, partially throttled by the engagement of the hub on the lower face of the piston 91 with the cooperating recess in the lower head of the cylinder. The initial downward movement of the cylinder-linkand-cage assembly, 92-00-80-04-03 etc., en-

gages the rollers |05 with the cam dogs ||I and closes the shear blades S-S to sever the flowing stream of glass by a combined and concurrent transverse and axial movement;-the ratio between these two movements and the resultant angle of out (see Fig. V) being determined and controlled by the contour of the roller engaging cam terminals lil-I etc.

Each of the shear frames I0 and 0I is also preferably provided with removable, semi-cylindrical stream engaging sleeves or guards |25|25 (see Figs. I- and II) whose inner diameter is slightly larger than that of the corresponding section of the glass stream, and whose upper ends are positioned in close proximity to the lower faces of the shear blades S-S, and are so shaped as to conform closely to the severed end of the cut oil.' gob" or mold charge; and as soon as this has been completely separated from the superadiacent oncoming portion of the flowing stream, (by the meeting of the shear blade edges). the downward movement of the now closed shearblade-guard-sleeve elements, is very rapidly accelerated (by the full opening of the cylinder port 00) and the severed gob is projected downward at a high velocity-which is very substantially greater than that imparted to it by gravity action alone-and is thus delivered to the receiving lreceptacle at such a speed that it can be transferred thereto without stopping the mold carrier, and with such an increased momentum that its impact with the bottom of the mold cavity will cause the soft hot plastic mass to completely illl the said cavity (to the required depth) even though the initial shape of the severed charge is quite different from that of this cavity.

The initial speed of downward movement of the closing shear blades S, S, is preferably so controlledwith respect to their concurrent transverse motion-that this movement is somewhat more rapid than the flow of the stream particles, under the expulsion forces then acting on the glass; so that the upper surfaces of the shear blades are never in contact with the previously cut portions` of the stream, (see Fig. V), and can, therefore, never check, or chill these oncoming parts, or affect in any way the action of the feed mechanism in producing a continuous, uninterrupted discharge of molten material from the delivery orifice F. The degree of acceleration, and of increased speed of delivery, which is imparted to the cut oiI gob, may be Varied and controlled, within wide limits, by varying the pressure in the supply line M-or by changing the cross sectional area of the cylinder 02; or

arcane I by varying the length of travel of the shear carriage on the guides BHI; or in various other ways which will be readily understood by engineers.

When the cylinder l2 approaches the lowerlimit of its downward travel the cylinder boss on the upper face of the piston i1 enters the recess in the top cylinder head, and throttles the escape of air from the port' 8l, thus trapvil'l a certain quantity of Vair in the upper part of the downwardly moving cylinder, which will act as an elastic buffer or cushion to arrest the movement of the cylinder actuated. parts and bring them to rest without detrimental shock or iar. At the termination oi' this movement the end of the lever ||5 comes in contact with an adjustable screw |26, and moves the dog IM out of engagement with the shear arm teeth |2| Iland permits the shear arms and 8| to be thrown apart to their open position by suitable springs lita. The continued rotationof the cam |02 then permits the reversing valve inl to be lifted by the spring |03; and the concurrent admission of compressed iluid to the cylinder II'I and to the upper end of the cylinder 92, iirs't opens the cam 4 arms lill-|01 (and moves the cam ends III-i il out of the path of the rollers MI5-|05 etc.) and y then lifts the shear cage to the top of the guides ;-the end of this lifting movement being gradually cushioned and checked, as before, by the throttling of the lower piston rod port ll and the resultant trapping oi air in that end of .the cylinder. y

Each entire cycle of movement of the shear mechanism occupies only a small part of the intervals between successive severing operations; and the time during which the lower faces of the shear blades S-S, or the inner surfaces oi the delivery-guard-elernents |25--itt are in contact with the hot glass is so very short that these parts cannot become unduly heated-and it is desirable that they remain at the maximum working temperature ci the receiving moldsand cannot, on the other hand, sensibly chill the outer surfaces oi the delivered mold charges. In order to obtain the best results the removable guard delivery sleeves arechansed when there is any substantial alteration ln the shape or mass of the successively cut oil section oi the ilowlne stream; and their inner surfaces are preferably chromium'plated and highly polished to prevent corrosion and transfer ci heat 'either by direct conduction or by radiation. As already stated the shear blades S, S, are also removably mounted on the arms di and d2, so that they may be easily replaced when the edges become dulled, and are preferably made of a special alloy steel (such as clearite which has been either heat treated, or nitrided to obtain the maximum resistance to wear. The engaging surfaces of these blades are, of course, ground to the arc of movement about the coaxial pintle pin supports 32-83; and the mounting is such that their engaged surfaces are maintained in spring contact with each other during their passage through the glass,

Figs. VI to X, inclusive, illustrate a second eX- emplary form of my improved severing and accelerated delivery mechanism which presents the same general features of functional action and operative performance as are characteristic of the construction last described. In this second embodiment of my invention theA shear blades S. S, are detachably and adjustably mounted on arms 8lla8 la, which are keyed to the upper ends o! vertical shafts Bla-lla that are Journalled in the endsot a flattened U-shaped yoke Ill. This yoke is carried' by alstraight line linkage assembly,which comprises the two pair oi' rocker arms ill-fill and |I2f|I2,that are pivotally attached, at their outer ends,'to the said yoke frame, and at their inner ends to a horisontally reciprocable cylinder 02a: and a corresponding pair oi radius arm guides. itl-|33 and III-|34, that are pivotally connected at their opposite extremities to the central points of the arms |3| and |32, and to ilxed brackets ill-III on the supporting frame M' of the shear mechanism. The reciprocabie cylinder lla is slidably mounted on a tubular pistonrod lla, which is rigidly vsecured'to the upright posts lll-Ill on the frame M', and which carries a stationary piston member 91a; and the opposite ends of this hollow piston rod a are connected by the pipes ISI and Ml, to the delivery ports of a reversing valve member |004, whose inlet port is, in turn, con-` nected to a high pressure fluid supply line Na. 'I'he inner terminals of the passageways in the piston rod are provided with two radial ports 98a and 99a, which are positioned at the ends of the oppositely projecting hubs on the piston 91a; and the heads of the reciprocable cylinder 92a are provided with cylindrical recesses III and |42 that engage the said hubs at the ends of the reciprocatory movement and serve to partially throttle the port openings 98a and 99a.

The lower ends of the vertical shafts 82a and 83a are reduced in diameter and are keyed to triangular shaped cam teeth ill-Mia; and the annular openings between thse smaller sections of the shafts and the adjacent enlarged portions of their journal bearings are occupied by torsion springs, |45, whose terminals are respectively connected to the cam elements |43 and Ilm; und to the yoke frame itl), and which serve to hold the connected shaft and shear arm members lim-.ca and tim-tiza in the open (full line) position shown in lfig. VII. Each of these shaft cams M3 and 43a is vadapted to be engaged by a rocker arm element, (M6 or M1) which is mounted to move freely en the hub oi a spool ist, but which is limited in its movement with respect thereto by the cross pins itil-iti and each oi the arms (Mt or itl) is normally held against the pin i5 by a spring ist. The spools iddidd are rotatably mounted on stud bolts ld, 53, which pass through the forked or slotted ends oil two lupwardly extending brackets ist and l5@ that are bolted to the other side of the supports ite and i3d, and 'which also serve to hold the' spool anges and the forked arm terminals in an ad- `instable frictional engagement with each other.

The ends of the U-shaped yoke frame i3d are also bored to receive a second set of vertical shafts itil and ld, that serve as pintle supports for two plates iSd-itt, to which are detachably secured a pair of recessed delivery cups lei- GBL The inner surfaces of these members (l 6|) are shaped to conform, or correspond, to the longitudinal contour and to the upper rounded or tapered end ci the severed mold charge-which has previously been shaped to the desired form in themanner already explained-and the upper ends of the cups are positioned, as closely as possible, to the lower faces of the shear blades S. S (see Fig. IX). Each cf the plates |60 is provided with a laterally extending arm |82, whose extremity is engaged by a suitable spring |63, that serves to normally hold the associated elements |6|6| in their open (full line) position of Fig. VII; and the upper 'yoke I (see diagram of Fig. X).

edge of each plate is also provided with a stud pin. |04 which is positioned in the path of movement of a downwardly projecting dog |44 on the adjacent shear blade arm lla (or ila). One of the members III carries a spring pressed latch |61, whose hooked end is adapted to engage with a radially extending lug Il! on the opposing delivery cup III, and thereby lock the parts 'itl-iti, ill-III, in the closed position shown in Fig. VIII.

This second form of severing and accelerated delivery mechanism--whichA may be substituted for the one previously described-operates as follows: When the desired mold ch e has been formed, by the action ot the feed assembly, the cam lilla. depresses the double poppet valve Ilia, and thereby establishes communication between the compressed air line 04a and the rear end oi the cylinder 02a; and concurrently opens the iront end thereof to the atmosphere. The pressure exerted on the outer end of thel cylinder moves the latter to the right-.from the full line position of Fig. VII toward the position shown in Fig. VIII-and correspondingly rocks the straight line" linkage elements, III-ISI-III- |34, on their fixed supports |8l-|l4,'to depress the shear-arm-yoke members (lla-lia-III etc.). The initial downward movement of the last named parts brings the curved cam teeth |4l-'l43a into engagement with the rounded and slightly recessed ends of the rocking cam arms |46 and |41; and as this downward motion continues, the coaction between these engaged cam elements, (H2-|44 and |4l-|41), rotates the shear arm trunnions 42o-a (and the shear arms Ilia-8| a) in a clockwise direction, and causes the shear blade S, S, carried thereby to sever the downwardly flowing stream of glass by s.` combined and concurrent lateral and axial movement-(in the manner illustrated in Fig. V) the relation between the two components of this movement being governed and regulated, as before, by the form and relative positioning of the actuating cam elements |43 to |41. As the shear arms Ila and lla approach each other the lugs IE5-I thereon, engage the pins |44-il4, and move the recessed/delivery cups lOl-lli to their closed position (see Fig. VIII);-the lugs and pins (N5-|44) being so adjusted that the shear blades S--S complete the severance of the glass stream and allow the cut of! gob to drop below the end plane of the cup elements (Ill- Itl) before the latter are completely closed (see Fig. IX) l The further downward' movement of the shear assembly carries the cam teeth |43|43a, below the range of action of the cam arms I4I-I41, and the shear arms Ilasla are then opened by the action of the torsion springs |45; but the delivery cups IBI-ill) are held in their closed position by the spring pressed latch |01. In this first stage of action, the motion of the cylinder actuated parts is being constantly accelerated, by the progressive opening of the port lla,r and the resultant increase of effective pressure on the outer head of the cylinder Ila; and, in the subsequent stage of action, this initial acceleration is rapidly augmented, in part by the constant force exerted on the moving parts, and in part by the ever increasing ratio between the movement of the cylinder and the concurrent movement of the This imparts a corresponding acceleration to the severed mold charge, which is embraced by the delivery cups IBI-IGI, and which is thereby projected downward at a velocity that is greatly in excess of that imparted to it by gravity action alone. As the yoke member I" approaches the end of its downward movement 4(as shown by dotted lines in Fig. VI) the curved end of the latch |41 is engaged by the upper inclined terminal of a fixed rod |10, and is thereby moved out of lockingcontact with the lug and the delivery cups III-III are then thrown apart by the springs itt-|43, thus freeing them from any engagement with the mold charge and permitting the latter to continue its accelerated movement to'the receiving mold or formingreceptacle. At the same time the hub on the front side o'f the piston 01a begins to enter the recess |4| and to close the port Ila; thus trapping a substantial volume of'air, between the piston and the adjacent advancing end of the cylinder 82a, and thereby cushioning and gradually arresting the movement o f the cylinder and linkage assembly. If necessary this cushioning action-which, is utilized to check the motion of the rapidly moving shear arm yoke without undue shock or jar--may be supplemented by the use of suitable buffer springs that are placed between the main bed frame M' and the radius guide arms |34|I4 (or between the frame and the lower ends ofthe yoke III) but if the depth of the recess |4| lis properly proportioned to the total length of cylinder movement, these auxillary spring checks will not be required and they are not therefore specifically illustrated inthe drawings.

When the delivery movement hasbeen completed the valve cam Illia releases the valve Illa and permits it to be moved to its initial position by the spring lola. 'Ihis opens the right hand (outer) end of the cylinder to the atmosphere, and admits compressed air to the opposite (inner) end (through the port Ila); and the parts will then be moved and lifted to the initial full line position of Fig. VI. At the end of this upward movement the cam teeth |4I'-|48a engage the lower faces of the depressed cam arms |44 and |41, and rock them backwardly, on the hubs of the frictionally retarded spools l4l, until they, in turn, engage the cross pins Ill-Ill; and the cam arm and supporting spool elements are then rotated as a unit, on the stud bolts |43, until the teeth |42|4I have passed above, and out of contact with the said arms. The cam elements |44-I41 will then be snapped forward again, into contact with the pins lill-. Ilil, by the springs |52: while the spools |44-I4l are held stationary by the frictional engagement of their ends with the forks of the bracket supports ISB-|58. All of the parts are thus restored to the initial full line positions of Figs. VI and VII, and are ready for the next severing and accelerated delivery operation.

The "straight line linkage connection between the shear-blade-delivery-cup-support and the actuating cylinder (82a) is in some respects preferable to the corresponding lever-arm-link connection (ID-Sll-Il--Ql etc.) shown in Figs. I-II and III, because the greater degree of acceleration that is obtained for the same increment oi' cylinder movement, With the mechanism last described it is possible to obtain, with a ten or twelve inch movement of the delivery cup elements, a final discharge velocity of from thirtyflve to forty feet per second (or more if desired). In order to attain such a speed under the acceleration of gravity alone it would be necessary to have a free fall of approximately twenty to twenty-ilve feet; and under practical conditions of operation it is quite impossible to obtain such a great length of drop before. delivering the mold charge to the forming machine. The use of my accelerated discharge, or accelerated delivery mechanism-is therefore of great advantage in permitting the receiving receptacles to be positioned in close proximity to the delivery oriice of the feeder-and thus minimizing the loss of time, and the resultant cooling, involved in delivering the successively severed mold charges to the forming machinew-and in also permitting these mold charges to be projected into the receiving receptacles at such a high speed as to insure the complete lling of the mold cavties-by momentum eiect-and to ill them so quickly as to avoid the necessity of stopping the movement of the mold carrier for that purpose.

I desire it to be understood that I have devised various shearing structures and shearing procedures for severing a continuously flowing stream of molten glass to produce mold charges and in which the shear blades move downwardly with the stream, and that such mechanisms and procedures form the subject matter of and are claimed in copending applications for patent, and distinguish structurally and functionally from the features herein claimed, and the novel subject matter disclosed but not claimed herein is claimed in application Serial No. 687,043, of which this' application is .a division.

What I claim as new and desire to secure by Letters Patent is:

l. A shear mechanism for severing individui' mold charges from a stream of molten glass' comprising, a pair of vertically reciprocable shear blades, means for reciprocating said blades, means projecting into the path of travel of said blades for engaging and moving said blades to a closed position-at the beginning of movement thereof in one direction, latch means for locking said blades in closed position during the remainder of the movement thereof in such direction, means adapted to engage and release said latch means at the end of such movement,l and means for moving said blade closing means to an inoperative position on movement of said blades in the opposite direction.

2. A shear mechanism for severing a stream of molten glass into individual mold charges comprising opposed vertically extending side rods, a vertically movable cage slidably mounted on said s'iderods, shear blades hinged to said cage for movement therewith, means for reciprocating said cage, and means for engaging and moving said blades .into cutting engagement with each other, said last-mentioned means being adapted to operate at the beginning of the downward movement of said cage whereby the blades are in cutting engagement with each other during the major portion of the downward movement of such cage.

3. A shear mechanism for severing a stream of molten glass into individual mold charges comprising opposed vertically extending side rods, a recipro'zable cage slidably mounted on said rods, shear blades pivoted to said cage for movement therewith, means for reciprocating said cage, means for engaging and moving said blades into cutting engagement as said cage is moved in one direction, means for locking said blades in cutting engagement, and means adapted to engage and release said blade locking means as said cage approaches the lower limit of its travel.

4. A shear mechanism for severing a suspended stream of molten glass into individual mold charges comprising a pair of opposed side rods, a cage reciprocably mounted on said rods, shear blades pivtally mounted on said cage for movement therewith, means for reciprocating said cage, means carried by said rods and projecting into the path of travel of said blades for engag ing and closing said blades on thedownward movement of said cage, means for locking said blades in closed position, means for engaging and releasing said blade-locking means as .said cage approaches the end oi its downward movement, and means for moving said blade-closing means out of the path of travel of said blades on the 'upward movement of said cage.

5. A shear mechanism for severing a suspended stream of molten glass into individual mold charges comprising a stationary frame, a cage reclprocably mounted on said frame, shear blades pivotally mounted on said cage for movement therewith, means for reciprocating said cage, means carried by said frame and projecting into the path of travel of said cage for engaging and moving said blades into closed position on the downward movement of said cage, and iluid actuated means for moving said blade-closing means out of the path of travel of said blades on the upward movement of said cage.

6. A shear mechanism for severing a stream of molten glass into individual mold charges comprising a stationary frame, a cage reciprocably mounted on said frame, shear 4blades pivotally mounted on said cage, iiuid actuated means for reciprocating said cage, means for engaging and moving said blades to a closed position on the downward movement of said cage, means for holding the blades in such closed position during the continued downward movement of said cage, means for releasing said blade holding means at the end of the downward movement of said cage, and uid actuated means i`or moving said blade closing means to an inoperative position on the upward movement oi said cage.

7. A charge severing and delivering mechanism comprising a pair oi opposed shear blades, a cup associated with each blade, a vertically reciprocable member on which said blades are mounted, means for reciprocating said member,

`cam means adapted to engage and move said blades and associated cups to a closed position at the beginning of the downward movement of said member, meansfor locking said cups -in such closed position, and means for engaging and releasing said cup locking means at the end of the downward movement of said member.

8. A charge severing and delivering mechanism comprising a pair of opposed shear blades, a delivery cup associated with each blade, a vertically reciprocable member on which said blades and cups are mounted, means for reciprocating said member, cam elements adapted to engage and move said blades to a closed position at the beginning oi the downward movement of said member, means carried by said blades and adapted to engage and close said delivery cups as said blades are moved to closed position, latch means for locking said delivery cups in closed position, means for releasing said latch means at the end of the downward movement of said member, and means for returning said delivery cups to their original position.

9. A charge severing and delivering mechanism comprising a pair of opposed shear blades, a rocker arm on each of said blades, a charge embracing cup associated with each of said blades, a vertically reciprocable member on which said blades are mounted, means for reciprocating said member, cams adapted to engage said rocker.

arms and move said blades to a closed position on the downward movement ot said member..

10. A charge Asevering and delivering mechanism comprising a pair of opposed shear blades, l a rocker arm on each of said blades. a charge embracing lcup associated with each of said blades, a. vertically reciprocable member on which said blades and cups are mounted, means for reciprocating said member, cams adapted to engage said rocker arms and move said blades to a closed position on the downward movement of said member, means on said blades adapted to engage and move said cups to a Acharge embracing position, means for locking. said cups in charge embracing position, and means for releasing said locking means as said vertically reciprocable member approaches l the end oi its downward movement.

11. A charge severing and delivering mechanism comprising a pair of opposed shear blades, a rocker arm on each oi said blades, a charge embracing cup associated with each oi said blades, a vertically reciprocable member on which said blades and cups are mounted, means for reciprocating said member, yieldably mounted means adapted to engage said rocker arms and move said blades to a. closed position on the downward movement of said member, means on said blades adapted to engage and move said cups to a charge embracing position as said blades are closed, means for locking said cups in charge embracing position, means for releasing said locking means as said member approaches the end of its downward movement, and means for opening said charge embracing cups.

12. A charge severing and delivering mechanism comprising a pair of opposed shear blades, a charge enveloping cup associated with each blade, a vertically reciprocable member on` which said blades are mounted, means for reciprocating said member, cam elements adapted to engage and move said blades and associated cups to a closed position at the beginning o! the downward movement of said member, means for locking said charge enveloping cups in closed position, means adapted to engage and release said locking means at the end oi the downward movement oi said membeaand means for retracting said cups and holding them in their open position during the upward movement of said member.

13. Mechanism for severing a suspended stream oi.' molten glass comprising a vertically'ireciprocable member, shear blades carried by said member, a iluid actuated motor. a straight line linkage mechanism connecting said member to said motor, means for delivering actuating iiuid to said motor to reciprocate said member at high speed, and means adapted to engage and move said blades to cutting position at the beginning of the-downward movement of said member, the continued downward movement oi said member after the severance being utilised to impart an accelerating force to the severed charge.

14. A method oi' delivering mold charges to a moving receptacle which consists in establishing4 a ilow of molten glass in the form of a suspended stream, severing a mold charge from said stream and delivering said severed charge to such receptacle at a speed in excess oi' the speed of its natural gravity fall and while continuing the movement of such receptacle.

i5. A method of producing mold charges which consists in establishing a suspended stream ci molten glass, periodically severing a mold charge from said stream, enclosing said severed charge and delivering said enclosed charge to a receiving mold at a greater speed than the speed oi its natural gravity fall.

16. A method 'oi delivering mold charges to a continuously moving receiving receptacle which consists in establishing a iiow of molten g'lass in the form oi' a suspended stream, severing a mold charge from said stream and applying an impel- `ling torce to such severed charge.; of sumcient of molten glass comprising opposed shear blades,

means for vertically reciprocating said blades, means responsive tothe initiating oi' the downward movement o'i' said blades tor moving said blades to a closed position, means for locking said blades in such closed position, and means for releasing said locking means to permit said blades to open as they approach the end of their travel.

19. Mechanism for severins a suspended stream of molten glass comprising opposed shear blades. means for vertically reciprocating said blades. means responsive to the initiating of the downward movement ot said blades for moving the blades to closed position, means for holding said bladesinsuchciosedpositionduringther mainder of the downward travel thereof, and means associated with said blades tor enveloping the severed charge while said blades are in such closed position.

20. Mechanism for severing a suspended stream ot molten' glass comprising opposed shear blades, means for vertically reciprocating said blades, means responsive to the initiating ot movement of said blades in one direction for closing said blades, means for holding said blades in closed position during lthe remainder of the travel thereof in such direction, means associated with said blades for enveloping the severed charge while said blades are closed, and means for releasing said blade holding means as said blades approach the end oi' their travel in such direction.

21. A method o! producing mold charges .and oi delivering such charges to the successive molds oi' a continuously moving mold table which consists in establishing a suspended stream oi' molten glass above such mold table, moving opposed shear blades in the direction of iiow of said stream and toward said table, closing said blades during the initial movement thereof toward said table to severa charge therefrom and then moving said blades rapidly toward said mold table to accelerate the speed ot such severed charge suiiiciently to permit its delivery to a receiving mold while such table is moving.

FRANK L. O. WADBWORTH. 

